Developing a self-driving robot as an educational robot for info hobby.
Developing a self-driving robot as an educational robot for info hobbyists To enable the acquisition of many fundamental principles of robotics, you can study from the basics, such as DC servo motors and A/D conversion. ■□■Features■□■ ■ By incorporating a full-fledged brushless DC servo, you can learn the fundamental principles of servo motors, including PWM, phase counting, and PID. ■ As it is a digital servo motor, applications such as memory of travel paths and tracing are possible, expanding the product's potential. ■ With 8-channel A/D conversion, it is possible to mount various analog sensors. * Sample programs, including C language programs, are included so you can use it immediately after purchase. ■ NiosII CPU CARD can be used (website support available). ■ Compact card size NiosII 75mm × 50mm. ■ 32Bit CPU 40MHz (further operates at 60MHz due to PLL) with instruction cache. ■ Additional hardware can be added in the available space within the FPGA. ■ GDB debugger can be used via JTAG, through RS232C. ■ For more details, please contact us.
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Developing a self-driving robot as an educational robot for Info Hobby You can study from the basics, such as DC servo motors and A/D conversion, to acquire many fundamental principles of robotics. ■□■Features■□■ ■ By incorporating a genuine brushless DC servo, you can learn the basic principles of servo motors such as PWM, phase counting, and PID. ■ As it is a digital servo motor, applications like memory of travel paths and tracing are possible, expanding the product's potential. ■ With 8-channel A/D conversion, various analog sensors can be mounted. * Sample programs, including C language programs, are included so you can use it right after purchase. ■ The NiosII CPU CARD can be used (website support available). ■ Compact card size NiosII 75mm × 50mm. ■ 32-bit CPU at 40MHz (further operates at 60MHz due to PLL) with instruction cache. ■ Additional hardware can be added in the available space within the FPGA. ■ GDB debugger can be used via JTAG, through RS232C. ■ For more details, please contact us.
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[Introduction of Our Products] ● Automatic Control Equipment Handling of FPGA boards, CPU boards, various external interfaces, and ladder sequencers ● Drive Equipment DC servo motors and encoder modules ● Software Handling of ladder development tools ● Module Products Short-axis robot modules